The major growth of automotive robotics market is primarily due to the widespread advancement of the automotive industry (including both vehicle and automotive component manufacturers). Automotive robots are primarily designed for assisting in the manufacturing of automobiles in the automotive industry. The major applications of the robots in automotive industry include painting, welding, assembling, cutting, and dispensing, among others.

The automotive industry is currently experiencing a dynamic era of growth due to the rising demand for vehicles (including cars, trucks, two wheelers, buses, and off-road vehicles, among others).This high growth of the automotive industry is optimistically influencing the use of robots for meeting the increasing consumer requirement of this market. Automotive robots are designed for assisting in the manufacturing of automobiles in automotive industry.

The key drivers that will drive the demand for robots in the automotive industry include ongoing high investments in new production capacities in emerging markets, investments in production, modernization in major vehicle producing countries, reduction of the time needed to market of the products, lack of skilled labor/ rising labor costs, and high demand for precision and quality control, among others.

There are multiple applications in which robots are being used in the automotive industry (both vehicle manufacturers and automotive component suppliers). Some of the major applications in which robots are utilized comprise of: painting, welding, assembling, cutting, and dispensing, among others. There are various other factory related material handling applications which are driving the demand for automotive robots, such as automated guided vehicles, AGVs.

While highlighting the key driving factors, restraining forces, as well as opportunities and challenges for this dynamic market, the report also provides a comprehensive section of the research and development programs and investments/expenditures going on in the global automotive robotics market.

The answers to the following key questions can be found in the report by its readers:

. What are different types of global automotive robotics products?

. What are the market trends and key developments for different automotive robotics products?

. Who are the key market participants in the global automotive robotics hardware, software and services market?

. What are different types of functions in the global automotive robotics market?

. What are the key market trends across different functions in the global automotive robotics market?

. How is the pricing scenario of global automotive robotic market by different products and regions?

. What are the different research and development programs and investments (expenditures) in the global automotive robotics market?

. What are the global automotive robotics market trends and key developments in different geographical regions?

. What are the key drivers for the global automotive robotics market across different regions?

. Who are the key market participants in different geographical regions?

. What are the key competitive insights in the global automotive robotics market (including both organic and inorganic growth strategies)?

. Who are the major emerging players (startups) in the global automotive robotics market and how is the investment scenario in the Startups robotic industry?

The research tries to answer various aspects of the automotive robotics market such as the factors driving the industry, its threats that can possibly slow down the market growth and the current growth opportunities that are going to shape the robotic market expansion. The research also includes Porter’s Five Forces Model for a detailed analysis of the market and a study of the factors influencing this market.

This study includes an overview and analysis of the global automotive robotics market by robotic system which includes hardware, software and services. Hardware product further includes Selective Compliance Assembly Robot Arm (SCARA) robots, articulated type of robots, Cartesian robots, and other types of robots. Additionally, other segments include global automotive robotics market by function which covers welding, painting, assembling and disassembling, cutting and milling, and material handling , and various other applications of automotive robots.

Major geographical segmentation includes North America (the U.S. and Canada), Europe (Italy, Germany and the U.K.), Asia-Pacific (China, Japan, India, and the Republic of Korea), and Rest of the World (RoW). The regions have been covered in terms of the market penetration in the automotive robot market as well as revenue generation in order to understand and utilize viable business opportunities. The report also includes the profiles of major players in the automotive robotics industry that shall allow its readers to get an insight into the industry trends.

Some of the leading companies in the GLOBAL AUTOMOTIVE ROBOTICS Market

NOTE: THE ABOVE INFORMATION WILL BE PROVIDED FOR ALL PLAYERS LISTED BELOW.

DETAILS ON BUSINESS OVERVIEW & FINANCIALS MIGHT NOT BE CAPTURED IN CASE OF UNLISTED COMPANIES

10.1

KUKA AG

10.2

ABB

10.3

YASAKAWA ELECTRIC CORP.

10.4

FANUC CORP.

10.5

Dürr AG

10.6

ADEPT TECHNOLOGY INC.

10.7

KAWASAKI ROBOTICS INC.

10.8

COMAU

10.9

UNIVERSAL ROBOTS

10.1

DENSO WAVE INCORPORATED

10.11

OTHER EMERGING PLAYERS

11

APPENDIX

11.2

RELATED REPORTS

The major growth of automotive robotics market is primarily due to the widespread advancement of the automotive industry (including both vehicle and automotive component manufacturers). Automotive robots are primarily designed for assisting in the manufacturing of automobiles in the automotive industry. The major applications of the robots in automotive industry include painting, welding, assembling, cutting, and dispensing, among others.

The key drivers that will augment the demand for robots in the automotive industry includes factors such as ongoing high investments in new production capacities in emerging markets as well as investments in production modernization in major vehicle producing countries. The major segments that have been covered in the global automotive robotics report consist of robotic system, function, and geographic segmentation. Robotic system segment includes key insights on hardware products, software as well as services. Hardware products are further classified as Selective Compliance Assembly Robot Arm (SCARA) robots, articulated type of robots, Cartesian robots, and other categories of robots. The function segment provides detailed information on major automotive applications which include welding, painting, assembling/disassembling, cutting and milling, and material handling.

Finally, geographic segmentation covers major countries including North America (the U.S. and Canada), Europe (Italy, Germany, the U.K.), Asia-Pacific (China, Japan, India, the Republic of Korea) and rest of the world (RoW) (Latin America, Middle East & Africa), which are major hubs for automotive robot manufacturers, suppliers, as well as system integrators. At the end of the report, a thorough analysis of the key players is provided which focuses on a detailed study based on major automotive robot provider’s financials, product portfolio, key developments, competitors, as well as a Strength, Weakness, opportunity and Threat (SWOT) analysis. Some of the emerging players (which consist of startups) are also discussed under this section which highlights some of the major investments occurring in the startups robotic market.

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